紊流条件下六方孔板肋阵列热性能分析

8TH BSME INTERNATIONAL CONFERENCE ON THERMAL ENGINEERING Pub Date : 2019-07-18 DOI:10.1063/1.5115847

Imtiaz Taimoor, L. Rahman, Nazneen Sultana Aankhy, M. Khalid

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引用次数: 3

摘要

热传递增强是现代热设备设计中关注的主要问题。本文通过实验演示分析了固体板翅阵列和沿翅长方向穿孔的六角形板翅阵列在稳态强制对流紊流状态下的热性能。风速变化范围为4ms−1 ~ 12ms−1，在恒定热通量下记录一定时间后的数据。对实心板翅和带六角形孔的板翅作为散热片进行了性能测试，以带六角形孔的板翅作为散热片效果最好。对流换热系数、翅片效率、翅片效率在六角形穿孔中比在实心穿孔中有所提高。带六角形孔的板翅的热阻似乎比实心翅小。该研究表明，控制翅片性能的最重要参数是翅片的几何形状和不同的横截面，即穿孔。热传递增强是现代热设备设计中关注的主要问题。本文通过实验演示分析了固体板翅阵列和沿翅长方向穿孔的六角形板翅阵列在稳态强制对流紊流状态下的热性能。风速变化范围为4ms−1 ~ 12ms−1，在恒定热通量下记录一定时间后的数据。对实心板翅和带六角形孔的板翅作为散热片进行了性能测试，以带六角形孔的板翅作为散热片效果最好。对流换热系数、翅片效率、翅片效率在六角形穿孔中比在实心穿孔中有所提高。带六角形孔的板翅的热阻似乎比实心翅小。这项研究表明，最重要的参数，控制…

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Thermal performance analysis of plate fin arrays with hexagonal perforations under turbulent flow regime

Heat transfer enhancement has been a major concern in modern days in designing heat generating equipment. In the present study an experimental demonstration has been investigated to analyze the thermal performance of solid plate fin arrays and plate fin arrays with hexagonal perforations where the perforations are along the length of the fin, in the turbulent flow regime under steady state forced convection. The air velocity was varied ranging from 4ms−1 to 12ms−1 and data were recorded after a certain period of time at a constant heat flux. The performance of solid plate fin and plate fin with hexagonal perforation as heat sink was tested and best result was found in case of plate fin with hexagonal perforations. Convective heat transfer co-efficient, fin effectiveness, fin efficiency seem to increase in hexagonal perforation than solid ones. Thermal resistance seems to decrease in plate fin with hexagonal perforations than solid fins. This study suggests that most important parameter that govern the performance of fin is the fin geometry and varied cross section i.e. perforations.Heat transfer enhancement has been a major concern in modern days in designing heat generating equipment. In the present study an experimental demonstration has been investigated to analyze the thermal performance of solid plate fin arrays and plate fin arrays with hexagonal perforations where the perforations are along the length of the fin, in the turbulent flow regime under steady state forced convection. The air velocity was varied ranging from 4ms−1 to 12ms−1 and data were recorded after a certain period of time at a constant heat flux. The performance of solid plate fin and plate fin with hexagonal perforation as heat sink was tested and best result was found in case of plate fin with hexagonal perforations. Convective heat transfer co-efficient, fin effectiveness, fin efficiency seem to increase in hexagonal perforation than solid ones. Thermal resistance seems to decrease in plate fin with hexagonal perforations than solid fins. This study suggests that most important parameter that govern the per...

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8TH BSME INTERNATIONAL CONFERENCE ON THERMAL ENGINEERING

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